Short‐term toxicological studies with impromidine (SK&amp;F 92676): A specific histamine H<sub>2</sub>‐receptor agonist

Leslie, G.B.; Owen, David A.; Pollitt, Frances D.; Sutton, T. J.; Walker, T. F.

doi:10.1002/jat.2550020510

Cited by 5 publications

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“…A recent study with impromidine (H2R-agonist) in rats and dogs demonstrated that impromidine had no serious toxicological effects at lower dose. However, in dogs, at the higher doses minor pathological changes were seen in liver (Lesli et al, 1982).…”

Section: Introductionmentioning

confidence: 90%

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Tripathi¹

2010

American Medical Journal

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Problem statement: Since in vivo studies looking for toxicological impact of histamine receptors-agonists in experimental models are fragmentary, the present study was designed to delineate the histopathological and biochemical changes in livers of rabbits treated with histamine receptors (H1R-H4R)-agonists. Approach: The cohort comprised of six groups (Group I control and Group II-VI treated) containing five rabbits each. Control-group received vehicle (sterile distilled water) and treated groups received subcutaneous histamine (100 µg kg −1 × b.i.d.) and H1R-agonist (HTMT dimaleate), H2R-agonist (amthamine dihydrobromide), H3R-agonist (R-(-)-α-methylhistamine dihydrobromide) and H4R-agonist (clobenpropit dihydrobromide) each in a dose of 10 µg kg −1 × b.i.d. Hepatotoxicity due to these agonists analyzed by using histopathological and biochemical methods. Results: Rabbits treated with drugs in group II-VI had significant elevated levels of serum enzymes (alanine aminotransferase (ALT), aspartate aminotransferase (AST), alkaline phosphatase and bilirubin) (p<0.05). Histopathological examination revealed hepatic congestion (by histamine and H2R-agonist), centrilobular necrosis (H1R-agonist), increasing degree of binuclearity (in H4R-agonist) and rather unusual multinuclearity (in H2R-and H3R-agonist) of hepatocytes and Kupffer cell prominence (in H4R-agonist) constituted the hallmark of the injuries produced by short-term treatment by histamine and its agonists as compared to control group. Conclusion: These results provided evidence that histamine receptors on induction via their specific-agonist produce specific pattern of hepatic congestion, hepatocyte necrosis and polyploidy and Kupffer cell prominence.

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Section: Introductionmentioning

confidence: 90%

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Tripathi¹

2010

American Medical Journal

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Impromidine Hydrochloride 65573‐02‐6

2004

Sax's Dangerous Properties of Industrial Materials

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Elks¹,

Ganellin²

1990

Dictionary of Drugs

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Short‐term toxicological studies with impromidine (SK&F 92676): A specific histamine H₂‐receptor agonist

Cited by 5 publications

References 4 publications

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Impromidine Hydrochloride 65573‐02‐6

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Short‐term toxicological studies with impromidine (SK&F 92676): A specific histamine H2‐receptor agonist

Cited by 5 publications

References 4 publications

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Hepatotoxicity Due to Histamine Trifluoro-Methyl Toluidide, Amthamine, R-(-)-α-Methyl Histamine and Clobenpropit (H1R-H4R-Agonists, Respectively) in Rabbit Experimental Model

Impromidine Hydrochloride 65573‐02‐6

I

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Short‐term toxicological studies with impromidine (SK&F 92676): A specific histamine H₂‐receptor agonist